NGAO Proposal WBS Dictionary
(Goal is a dictionary entry for each line of the WBS; make no entries here, rather submit to Peter by email)
1 System Design Phase Management - done
1.1 Planning & Contracting
1.1.1 Planning - done
1.1.2 Contracting - done
1.2 Meetings - done
1.2.1 Executive Committee Telecons - done
1.2.2 Science Advisory Committee Telecons - done
1.2.3 Team Meetings - done
1.3 Tracking & Reporting - done
1.4 Funding Proposal(s) - done
1.5 System Design Review
1.5.1 System Design Report -done
1.5.2 System Design Review Activities - done
2 System Requirements - done
2.1 Science Requirements
2.1.1 Solar System
2.1.2 Galactic
2.1.2.1 Galactic Center - done
2.1.2.2 Debris Disks and Binary Brown Dwarfs - done
2.1.3 Extragalactic
2.1.3.1 Resolved Stellar Populations - done
2.1.3.2 High Redshift Galaxies - done
2.1.4 Science Requirements Summary
2.2 Observatory Requirements
2.3 System Requirements Document - done
3 System Design Approach
3.1 System Engineering
3.1.1 Performance Budgets - done
3.1.1.1 Model Assumptions - done
3.1.1.1.1 TMT Site Monitoring Data Mining
3.1.1.1.2 Telescope Dynamic Performance Data - done
3.1.1.1.3 Telescope Static Wavefront Errors - done
3.1.1.1.4 Sodium Return versus Laser Format - done
3.1.1.2 Model/Tool Validation - done
3.1.1.2.1 Agreement between Tomography Codes - done
3.1.1.2.2 Agreement between Sky Coverage Codes
3.1.1.2.3 Anchor to Keck II LGS AO
PSFs
- done
3.1.1.2.4 Anchor to On-sky MGSU Experiments - done
3.1.1.2.5 Anchor to LAO Lab Experiments - done
3.1.1.3 Throughput - done
3.1.1.4 Background - done
3.1.1.5 Wavefront Error - done
3.1.1.6 Encircled Energy - done
3.1.1.7 Photometric Accuracy - done
3.1.1.8 Astrometric Accuracy - done
3.1.1.9 Polarimetric Accuracy
3.1.1.10 Companion Sensitivity - done
3.1.1.11 Point Source Sensitivity - done
3.1.1.12
PSF
Stability - done
3.1.1.13 Observing Efficiency - done
3.1.1.14 Observing Uptime - done
3.1.1.15 Performance Budgets Summary
3.1.2 System Architecture
3.1.3 Trade Studies
3.1.3.1 System Architecture Trade Studies
3.1.3.1.1 NGAO versus Keck AO Upgrades - done
3.1.3.1.2 Adaptive Secondary Mirror Option - done
3.1.3.1.3 K & L-band Science - done
3.1.3.1.4 Keck Interferometer Support - done
3.1.3.1.5 Instrument Balance - done
3.1.3.1.6 GLAO for non-NGAO Instruments - done
3.1.3.1.7 Instrument Reuse - done
3.1.3.1.8 Telescope Wavefront Errors - done
3.1.3.2 Adaptive Optics System Trade Studies - done
3.1.3.2.1 AO Enclosure Temperature - done
3.1.3.2.2 Optical Relay Design - done
3.1.3.2.3 Field Rotation Strategy - done
3.1.3.2.4 Dichroics - done
3.1.3.2.5 Rayleigh Rejection - done
3.1.3.2.6 LGS Wavefront Sensor Type - done
3.1.3.2.7 LGS Wavefront Sensor Number of Subapertures - done
3.1.3.2.8 Slow Wavefront Sensor - done
3.1.3.2.9 Low Order Wavefront Sensor Architecture - done
3.1.3.2.10 Number and Type of Low Order Wavefront Sensors - done
3.1.3.2.11 Centroid Anisoplanatism - done
3.1.3.2.12 Deformable Mirror Stroke Requirement - done
3.1.3.2.13 Stand-alone Tip/Tilt Mirror versus DM on Tip/Tilt Stage - done
3.1.3.2.14 Correcting Fast Tip/Tilt with DM - done
3.1.3.2.15 Focus Compensation - done
3.1.3.3 Laser Facility Trade Studies
3.1.3.3.1 Laser Pulse Format - done
3.1.3.3.2 Free Space versus Fiber Relay - done
3.1.3.3.3 LGS Asterism Geometry and Size - done
3.1.3.3.4 Variable versus Fixed LGS Asterism Geometry - done
3.1.4 Functional Requirements - done
3.1.4.1 AO System
3.1.4.2 Laser System
3.1.4.3 Operations Tools
3.1.4.4 Science Instruments
3.1.5 Technology Drivers Summary
3.1.6 Technical Risk Assessment
3.2 AO System
3.2.1 AO System Architecture - done
3.2.2 AO Enclosure - done
3.2.3 Opto-Mechanical Design - done
3.2.3.1 Field Rotation - done
3.2.3.2 Optical Relay - done
3.2.3.3 Optical Switchyard - done
3.2.3.4 Optical Support Structure - done
3.2.3.5 Wavefront Sensors
3.2.3.5.1 High Order LGS Wavefront Sensors
3.2.3.5.2 High Order NGS Wavefront Sensors
3.2.3.5.3 Low Order NGS Wavefront Sensors
3.2.3.5.4 Calibration Wavefront Sensors
3.2.3.6 Wavefront Correctors
3.2.3.6.1 Tip/Tilt
3.2.3.6.2 Deformable Mirror
3.2.3.7 Atmospheric Dispersion Correction - done
3.2.3.8 Acquisition Cameras
3.2.3.8.1 NGS Acquisition Camera
3.2.3.8.2 LGS Acquisition Camera
3.2.3.9 Alignment, Calibration, Diagnostics, Metrology and Monitoring - done
3.2.4 Non-Real-Time Control
3.2.4.1 Non-RTC Software Design - done
3.2.4.2 Non-RTC Electrical Design - done
3.2.5 Real-time Control - done
3.2.5.1 RTC Architecture Analysis and Design Study - done
3.2.5.2 RTC Software Module Definition - done
3.2.5.3 RTC Hardware Module Definition - done
3.3 Laser Facility
3.3.1 Laser System Architecture - done
3.3.2 Laser Enclosure
3.3.3 Laser - done
3.3.4 Laser Launch - done
3.3.4.1 Laser Beam Transport
3.3.4.2 Laser Pointing and Diagnostics
3.3.4.3 Laser Launch Telescope
3.3.5 Laser Safety Systems
3.3.5.1 Personnel and Equipment Safety Systems
3.3.5.2 Aircraft and Satellite Safety Systems
3.3.6 Laser Traffic Control - done
3.3.7 Laser System Control
3.3.7.1 Laser System Software
3.3.7.2 Laser System Electronics
3.4 Operations Tools
3.4.1 Operations Architecture - done
3.4.2 Observing Setup - done
3.4.3 User Interface - done
3.4.4 Astronomer Planning - done
3.4.5 Science Instruments and Telescope Interfaces - done
3.4.6 Performance Monitoring - done
3.4.7 Automation and Optimization - done
3.5 Science Instruments
3.5.1 OSIRIS
3.5.2 Interferometer
3.5.3 OHANA
3.5.4 Near-IR Imager
3.5.5 Visible Imager
3.5.6 Visible IFU
3.5.7 Deployable Near-IR IFU
3.5.8 Mid-IR IFU
3.6 System Design Manual - done
4 System Engineering Management Plan - done
4.1 Project Plan - done
4.2 Risk Assessment & Management Plan - done
4.3 Preliminary Design Phase Plan - done
4.4 Integration & Test Plans
4.4.1 Subsystem Integration & Test Plans
4.4.2 System Integration & Test Plans
4.5 Configuration Management Plan
4.6 Project Management Plan
4.7 System Engineering Management Plan - done
This topic: Keck/NGAO
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SystemDesignPhasePlanning
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WBSDictionary
Topic revision: r1 - 2006-08-31 - RichardDekany
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